Αποτελέσματα Αναζήτησης
13 Ιουλ 2024 · Controlling microrobot movement in blood vessels is vital for medical treatments but is challenging due to red blood cells. This study combines simulations, experiments, and machine learning...
19 Ιουν 2019 · An energy-dense hydraulic fluid is used to construct a synthetic circulatory system in a lionfish-like soft robot, enabling untethered movement for up to 36 hours.
11 Μαΐ 2020 · Blood vessels are good channels through which microrobots can be transported to remote sites in the human body. The blood flow can provide part of the driving force for the microrobots in...
18 Σεπ 2020 · These experiments demonstrate the feasibility of the MR fluid to operate within a soft robot with branching fluid paths as both a valve to control the pressure of the flow and thus the bending of a soft fluidic actuator, as well as a switch to prevent the flow of fluid through any given path.
17 Ιουν 2023 · When the blood flows below the robot, the fluid zone is compressed, accelerating the flow of blood and forming a high-speed fluid zone, which increases the force of blood on the vessel wall and easily causes damage to vascular endothelial cells.
19 Ιουν 2019 · Untethered robots suffer from a stamina problem. A possible solution: a circulating liquid – “robot blood” – to store energy and power its applications for sophisticated, long-duration tasks. Humans and other complex organisms manage life through integrated systems.
20 Ιουν 2019 · Researchers have created a system of circulating liquid -- 'robot blood' -- within robotic structures, to store energy and power robotic applications for sophisticated, long-duration tasks.
